Construction Planning and Implementation Using ANSI/TIA-322 and ANSI/ASSE A10.48

This presentation will cover an overview of the recent transition from the ANSI/TIA-1019-A standard to the ANSI/TIA-322 and ANSI/ASSE A10.48 construction standards, specific roles and responsibilities for key con¬tractor and engineering personnel involved in construction planning and implementation, detailed descriptions of construc¬tion classifications, rigging plans, and specialized lifting devices.

Smart buildings are the building blocks that will enable society’s digital transformation. This revolution will leverage data from myriad devices to bring new insights and enable new products and services. Around the globe, the smart buildings technology market will explode 16.1% over the next five years from a 2018 market size of $30.5 billion. In this webinar we will look at the changes inherent in the digital evolution as well as the infrastructure solutions that will support them.

This webinar, presented by Jim Davis of Fluke Networks, will start with a basic review of the need for cleaning fiber and the differences between singlemode and multimode fibers. It will then cover the inspection and cleaning of fibers, the loss length and reflectance requirements, measuring loss, Tier 1 testing of MPO/MPT Connectors, Tier 2 testing for troubleshooting, and reading a test report.

Working with cabling systems that feature multifiber push-on connectors (MPOs) is a new and potentially challenging endeavor for many technicians. That’s why understanding the importance of MPO connector cleanliness, polarity and continuity, as well as how to test each of these characteristics is crucial to ensuring optimal performance. This webinar will review the basic checks you need to make before turning up MPO-based fiber-optic cabling systems and explore each of the three tests in detail, including the potential risks of omitting any of them

As enterprise and data center networks migrate toward architectures that utilize multi-fiber connectivity such as MPO, standards bodies are releasing updates to incorporate these technologies into standardized structured cabling. This webinar provides an update on the revisions to industry standards to support multi-fiber connectivity and will explain how to implement testing procedures that will allow users to provide certification for networks with multi-fiber connectivity.

Speakers will include Rodney Casteel, CommScope, and Ed Gastle, VIAVI Solutions. Attendees will earn one BICSI CEC for attending.

As enterprise and data center networks migrate toward architectures that utilize multi-fiber connectivity such as MPO, standards bodies are releasing updates to incorporate these technologies into standardized structured cabling. This webinar provides an update on the revisions to industry standards to support multi-fiber connectivity and will explain how to implement testing procedures that will allow users to provide certification for networks with multi-fiber connectivity.

Speakers will include Rodney Casteel, CommScope, and Ed Gastle, VIAVI Solutions. Attendees will earn one BICSI CEC for attending.

This presentation will look at some of the requirements for field testing Single Mode fiber to make sure it will support the new applications you are planning to run on it. Starting with inspection and cleaning it will answer many of those little questions, “can I use that click pen from UPC multimode connectors on APC connectors?, How do I inspect APC connectors?”

From there the presentation will move on to the calculation of a loss budget, what is the correct budget, and what wavelengths should be tested. We will look at the best practices in Tier I loss testing to assure the minimum of uncertainty in our test results. The presentation will explain how this can be done for both single connectors such as LC and SC as well as MPO connections.

Finally, we will look at troubleshooting the fiber using an OTDR and give an introduction to the identification of common events in Single Mode OTDR traces.

There are many considerations when it comes to choosing your fiber termination method – from the number of connections and the application being supported, to performance and overall required time to go live. While pre-terminated fiber solutions offer significant benefits in terms of factor-terminated performance and ease of deployment, they do require proper planning and predetermining of lengths, as well as longer lead times. Choosing a field termination method like fusion splicing or mechanical splice connectors comes with its own set of additional considerations, including cost, required skill set and labor efficiency. This webinar will examine the various types of fiber termination methods available today, providing pros and cons of each method and basic considerations to help you choose the fiber termination that’s right for your specific fiber deployment, including key questions to ask and termination time comparisons and analysis.

This talk will explore the evolution of multimode fiber from inception to current time against the historical transceiver roadmap. We will explore various transceiver form-factors with respect to capability, technology risk, density and cost vs. fiber types that have been deployed (and those yet to be widely deployed). Both transceivers and supported fibers will also be discussed with respect to the evolution of standards that support them.
Attendees will earn 1 BICSI CEC.

Data Centers vary widely in nature and can be roughly classified as hyperscale, multi-tenant, and private. A critical and common component in the operation of such data centers is the installation and maintenance of the physical cabling infrastructure. A fundamental change taking place is the evolution from cables using classic connectors on copper (RJ-45) or fiber optics (LC) to cables terminated by pluggables such as SFP or QSFP. This represents a new challenge as these cables, called Active Optical Cable (AOC) or Direct Attach Copper (DAC), are not easily validated and tested.

Broadcast media is undergoing wholesale change due to demands from consumers, competitors, and creative opportunity for new types of content. Virtualization at multiple points of the distribution and delivery network is recognized as the only way to meet these demands. This webcast will review in detail the technologies involved in the virtualization of broadcast media, from network, to master control centers, to edge device delivery.

Speakers:
Steve Reynolds, CTO, Imagine Communications

Steve Reynolds is Chief Technology Officer at Imagine Communications and responsible for the technical strategy and roadmap of the company, as well as managing business development, partner relationships, and M&A activity. Reynolds brings 20 years of technology leadership in the cable industry to Imagine Communications. At Comcast, he served as Senior Vice President of Premises Technology overseeing the strategy, roadmap and development of all technologies employed in service delivery to the customer premises. Prior to Comcast, Reynolds was Senior Vice President of Technology at OpenTV Incorporated, a world leader in digital and interactive television technology.

>> Mark Mullins - Global Communications Manager, Fluke Networks
Mark is one of the founding members of Fluke Networks, starting in 1993. He has been involved in all of the key areas of the business, including cable testing, network troubleshooting and analysis. He holds a B.S. in Computer Science and an MBA from the University of Washington.

>> Frank Straka - Product Line Manager, Panduit
Frank Straka manages Panduit’s copper and fiber cable product lines. Frank holds multiple degrees in both engineering and business, including a BSEE, MSEE, and MBA. He holds 26 patents in copper connectivity and cable design. Frank is active in the TIA TR42.7 standards group, which developing new standards to support new applications like 25 and 40GBASE-T, 100W PoE++ and NBASE-T. He has spoken at multiple conferences such as BICSI, IWCS, and the Ethernet Summit on new copper developments.

The high speeds expected from future 5G networks and the demands of dense data over those networks is leading to communications network densification. Data centers, a key component of high speed delivery, are redefining their role, becoming a part of the fog and moving increasingly to the edge. This webcast will cover the role micro data centers will play in community network communications infrastructure; their configuration and structure; use of artificial intelligence and virtualization; control systems and operations; and workforce needs.

Level 5 autonomy for automotive and the broader intelligent transportation industry will require hyper broadband connectivity. Smart communities and corporations developing products and services for ubiquitous connectivity understand that it requires a holistic vision of a fully 5G-connected environment.

This webcast will discuss the work cities, and automotive suppliers and OEMs are doing to build infrastructure and transportation vehicles that will move from human driven, through connected to autonomous capabilities.